Susan Crossland scite author profile

The status of p53 was investigated in breast tumours arising in germ-line carriers of mutant alleles of BRCA1 and BRCA2 and in a control series of sporadic breast tumours. p53 expression was detected in 20/26 (77%) BRCA1-, 10/22 (45%) BRCA2-associated and 25/72 (35%) grade-matched sporadic tumours. Analysis of p53 sequence revealed that the gene was mutant in 33/50 (66%) BRCA-associated tumours, whereas 7/20 (35%) sporadic grade-matched tumours contained p53 mutation (P50.05). A number of the mutations detected in the BRCA-associated tumours have not been previously described in human cancer databases, whilst others occur extremely rarely. Analysis of additional genes, p16 INK4 , Ki-ras and b-globin revealed absence or very low incidence of mutations, suggesting that the higher frequency of p53 mutation in the BRCA-associated tumours does not re¯ect a generalized increase in susceptibility to the acquisition of somatic mutation. Furthermore, absence of frameshift mutations in the polypurine tracts present in the coding sequence of the TGF b type II receptor (TGF b IIR) and Bax implies that loss of function of BRCA1 or BRCA2 does not confer a mutator phenotype such as that found in tumours with microsatellite instability (MSI). p21 Waf1 was expressed in BRCA-associated tumours regardless of p53 status and, furthermore, some tumours expressing wild-type p53 did not express detectable p21 Waf1 . These data do not support, therefore, the simple model based on studies of BRCA7/7 embryos, in which mutation of p53 in BRCA-associated tumours results in loss of p21 Waf1 expression and deregulated proliferation. Rather, they imply that proliferation of such tumours will be subject to multiple mechanisms of growth regulation.

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p53 mutations in BRCA1-associated familial breast cancer

Crook

et al. 1997

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Novel p53 mutants selected in BRCA-associated tumours which dissociate transformation suppression from other wild-type p53 functions

et al. 1999

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Inheritance of germ-line mutant alleles of BRCA1 and BRCA2 confers a markedly increased risk of breast cancer and we have previously reported a higher incidence of p53 mutations in these tumours than in grade matched sporadic tumours. We have now characterized these p53 mutants. The results of these studies identify a novel class of p53 mutants previously undescribed in human cancer yet with multiple occurrences in BRCA-associated tumours which retain a pro®le of p53-dependent activities in terms of transactivation, growth suppression and apoptosis induction which is close or equal to wild-type. However, these mutants fail to suppress transformation and exhibit gain of function transforming activity in rat embryo ®broblasts. These mutants therefore fall into a novel category of p53 mutants which dissociate transformation suppression from other wild-type functions. The rarity of these mutants in human cancer and their multiple occurrence in BRCA-associated breast tumours suggests that these novel p53 mutants are selected during malignant progression in the unique genetic background of BRCA1-and BRCA2-associated tumours.

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Spectrum of p53 Gene Mutations Suggests a Possible Role for Ultraviolet Radiation in the Pathogenesis of Advanced Cutaneous Lymphomas

McGregor

Crook

Fraser-Andrews

et al. 1999

Journal of Investigative Dermatology

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There is evidence that the incidence of primary cutaneous lymphoma, like other forms of non-Hodgkin's lymphoma, is increasing, yet little is known of the pathogenetic events involved in this group of disorders. In this study we examine the frequency and spectrum of P53 gene mutations in a large series of primary cutaneous lymphomas, with particular emphasis on tumor stage mycosis fungoides, as it is in these cases that p53 overexpression has previously been reported. Sixty-six samples from 55 patients with primary cutaneous B cell and T cell lymphomas were analyzed for mutations in exons 5-9 of the P53 gene using polymerase chain reaction/single strand conformational polymorphism, and subsequent cloning and sequencing of genomic DNA. Fourteen separate P53 mutations were identified in blood, skin, and lymph node samples in 13 patients (24%). Twelve of 14 mutations occurred at dipyrimidine sites, eight resulting in C-->T transitions and one in a CC-->TT tandem base transition, a mutation spectrum strikingly similar to that reported in nonmelanoma skin cancer and characteristic of DNA damage caused by ultraviolet B radiation. In the subset of patients with mycosis fungoides, P53 mutations were identified in six of 17 patients with tumor-stage but in none of 12 patients with plaque-stage disease (Fisher's exact test p = 0.027). These data suggest a role for ultraviolet radiation in the pathogenesis of primary cutaneous lymphomas and a possible ultraviolet B-related step in the progression of mycosis fungoides from plaque to tumor-stage disease.

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A transforming p53 mutant, which binds DNA, transactivates and induces apoptosis reveals a nuclear:cytoplasmic shuttling defect

et al. 1998

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The DG75 Burkitt lymphoma-derived human B cell line is heterozygous for p53, carrying wild type (WT) and mutant (Arg283His) alleles. The cells constitutively express high levels of both p53 proteins and also Mdm2. Arg283His transactivates the p21 Waf1 , Mdm2, bax, cyclin G and IGF-BP3 promoters in transient transfection assays equally as well as, if not better than WT p53. It also suppresses the outgrowth of SAOS-2 cells and speci®cally binds DNA like wild type protein.However, in primary rodent ®broblasts Arg283His fails to suppress transformation by HPV16-E7 and (Ha-)ras and even has modest transforming activity when transfected alone with (Ha-)ras. When Arg283His is transiently transfected into SAOS-2 cells it eciently induces apoptosis, so ± unlike mutants such as Arg175Pro ± its behaviour in transformation assays does not clearly correlate with loss of the apoptosis function. Immuno¯uorescence staining of both REF transformants and transiently transfected SAOS-2 revealed that this unusual mutant becomes excluded from the nucleus and produces striking cytoplasmic uorescence. The best correlation with transformation, therefore, appears to be the lack of nuclear retention of Arg283His. Since this mutation does not map to any known nuclear localization signal and its presence seems to result in aberrant exclusion from the nucleus, then it may prove very useful in exploring mechanisms involved in the nuclear : cytoplasmic shuttling of p53.

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Susan Crossland

p53 mutation with frequent novel codons but not a mutator phenotype in BRCA1- and BRCA2-associated breast tumours

p53 mutations in BRCA1-associated familial breast cancer

Novel p53 mutants selected in BRCA-associated tumours which dissociate transformation suppression from other wild-type p53 functions

Spectrum of p53 Gene Mutations Suggests a Possible Role for Ultraviolet Radiation in the Pathogenesis of Advanced Cutaneous Lymphomas

A transforming p53 mutant, which binds DNA, transactivates and induces apoptosis reveals a nuclear:cytoplasmic shuttling defect

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